Reduction and reoxidation of equine gonadotropin alpha-subunits

Abstract

Ovine (o) and equine (e) LH alpha-subunits were reduced and reoxidized using conditions known to be effective for bovine and human alpha-subunits. The major product of oLH alpha refolding was alpha-subunit monomer. In contrast, eLH alpha formed a 121,000 mol wt aggregate. Monomeric eLH alpha was recovered, but in greatly reduced yield. To test the effects of carbohydrate variation on the aggregation of equine alpha-subunits, all of the equine gonadotropin alpha-subunits (eFSH alpha, eCG alpha, eLH alpha, and free alpha-subunit) were reduced and reoxidized. In each case, the major product was the 121,000 mol wt aggregate accompanied by monomeric equine alpha. Removal of carbohydrate by trifluoromethane sulfonic acid hydrolysis accentuated the tendency to aggregation during reoxidation. Most reduced-reoxidized deglycosylated eLH alpha did not enter a 12% sodium dodecyl sulfate-polyacrylamide gel. The highest LH receptor-binding activities were found in the alpha-subunit preparations, eLH alpha itself and pi...